他的……核糖核酸酶A的天冬氨酸催化二元体:野生型、D121N和D121A酶的结构与功能
His...Asp catalytic dyad of ribonuclease A: structure and function of the wild-type, D121N, and D121A enzymes.
作者信息
Schultz L W, Quirk D J, Raines R T
机构信息
Department of Biochemistry, University of Wisconsin-Madison 53706, USA.
出版信息
Biochemistry. 1998 Jun 23;37(25):8886-98. doi: 10.1021/bi972766q.
The side chains of histidine and aspartate residues form a hydrogen bond in the active sites of many enzymes. In serine proteases, the His...Asp hydrogen bond of the catalytic triad is known to contribute greatly to catalysis, perhaps via the formation of a low-barrier hydrogen bond. In bovine pancreatic ribonuclease A (RNase A), the His...Asp dyad is composed of His119 and Asp121. Previously, site-directed mutagenesis was used to show that His119 has a fundamental role, to act as an acid during catalysis of RNA cleavage [Thompson, J. E., and Raines, R. T. (1994) J. Am. Chem. Soc. 116, 5467-5468]. Here, Asp121 was replaced with an asparagine or alanine residue. The crystalline structures of the two variants were determined by X-ray diffraction analysis to a resolution of 1.6 A with an R-factor of 0.18. Replacing Asp121 with an asparagine or alanine residue does not perturb the overall conformation of the enzyme. In the structure of D121N RNase A, Ndelta rather than Odelta of Asn121 faces His119. This alignment in the crystalline state is unlikely to exist in solution because catalysis by the D121N variant is not compromised severely. The steady-state kinetic parameters for catalysis by the wild-type and variant enzymes were determined for the cleavage of uridylyl(3'-->5')adenosine and poly(cytidylic acid), and for the hydrolysis of uridine 2',3'-cyclic phosphate. Replacing Asp121 decreases the values of kcat/Km and kcat for cleavage by 10-fold (D121N) and 10(2)-fold (D121A). Replacing Asp121 also decreases the values of kcat/Km and kcat for hydrolysis by 10(0. 5)-fold (D121N) and 10-fold (D121A) but has no other effect on the pH-rate profiles for hydrolysis. There is no evidence for the formation of a low-barrier hydrogen bond between His119 and either an aspartate or an asparagine residue at position 121. Apparently, the major role of Asp121 is to orient the proper tautomer of His119 for catalysis. Thus, the mere presence of a His...Asp dyad in an enzymic active site is not a mandate for its being crucial in effecting catalysis.
组氨酸和天冬氨酸残基的侧链在许多酶的活性位点形成氢键。在丝氨酸蛋白酶中,催化三联体的His...Asp氢键已知对催化作用有很大贡献,可能是通过形成低势垒氢键。在牛胰核糖核酸酶A(RNase A)中,His...Asp二元组由His119和Asp121组成。以前,通过定点诱变表明His119具有基本作用,即在RNA裂解催化过程中充当酸[汤普森,J.E.,和雷恩斯,R.T.(1994)《美国化学会志》116,5467 - 5468]。在这里,将Asp121替换为天冬酰胺或丙氨酸残基。通过X射线衍射分析确定了这两种变体的晶体结构,分辨率为1.6 Å,R因子为0.18。用天冬酰胺或丙氨酸残基替换Asp121不会干扰酶的整体构象。在D121N RNase A的结构中,Asn121的Nδ而非Oδ面向His119。在晶体状态下的这种排列在溶液中不太可能存在,因为D121N变体的催化作用没有受到严重损害。测定了野生型和变体酶催化尿苷酰(3'→5')腺苷和聚(胞苷酸)裂解以及尿苷2',3'-环磷酸水解的稳态动力学参数。替换Asp121使裂解的kcat/Km和kcat值降低10倍(D121N)和10²倍(D121A)。替换Asp121也使水解的kcat/Km和kcat值降低10⁰.⁵倍(D121N)和10倍(D121A),但对水解的pH-速率曲线没有其他影响。没有证据表明His119与121位的天冬氨酸或天冬酰胺残基之间形成低势垒氢键。显然,Asp121的主要作用是使His119的适当互变异构体定向以进行催化。因此,在酶活性位点仅仅存在His...Asp二元组并不是其在催化作用中起关键作用的必要条件。
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